Hierarchical routing method oriented to cross-boundary service network

ABSTRACT

The present invention discloses a hierarchical routing method oriented to a cross-boundary service network. The hierarchical routing method includes the following steps: (1): proposing reference services for services with same or similar functions in a service network, with differences in format and usage mode, and establishing a unified and standardized usage view for a user; and (2): establishing a method for mapping between the reference services and ordinary services to map the multiple ordinary services with similar functions into the unified reference services, and automatically selecting an optimal ordinary service when called by the user. The hierarchical routing method provided by the present invention can implement high-speed routing of service call in the service network, thereby providing a basis for aggregation and interoperation of cross-boundary services.

TECHNICAL FIELD

The present invention is applied in the field of service computing, and particularly relates to a hierarchical routing method oriented to a cross-boundary service network.

BACKGROUND TECHNOLOGY

A service-oriented architecture (SOA) is a component model that links different function units (called as services) of an application by well-defined interfaces and contracts between the services. The SOA is proposed to divide tightly coupled systems into business-oriented, coarse-grained, loosely coupled, and stateless services. Services are published for other services to call, and a group of interdependent services constitute a system under the SOA.

With the development and application of the new generation of information technologies such as “cloud computing, big data, Internet of things, mobile Internet, and artificial intelligence”, the human cognition and ability will be expanded and improved, and the conventional boundaries will be redefined. “Cross-boundary” means breaking through original boundaries to implement the integration and cooperation of resources inside and outside the boundaries. Cross-boundary services will be deeply integrated and innovated in mode across different industries, organizations, value chains and other boundaries to provide users with multi-dimensional, high-quality and valuable services, which is not only the necessity of technological development, but also an important innovation way for the development of modern service industry.

The integration of cross-boundary services requires an efficient and reliable operation support environment to provide operation support for a service network. For example, the Chinese Patent No. CN109286530A discloses an architecture for operation and support of a cross-boundary service network, and the Chinese Patent No. CN112183066A discloses a method for integrating cross-boundary service targets. At present, there are mainly enterprise service bus, enterprise application integration and other related technologies in this field. Peking University, IBM, Georgia Institute of Technology and others have good research accumulation in cloud integrated resource service, service bus and other aspects, but most of the technologies are aimed at an enterprise-level operating environment, only implementing structure and information integration of services. For the governance and aggregation of cross-boundary services distributed throughout the network, there is still a lack of related engineering methods and operation support carriers.

With the characteristics of high-dimensional isomerism, complex dynamics, and open distribution during the operation of the cross-boundary services, the present invention proposes a hierarchical routing algorithm oriented to a cross-boundary service network, thereby providing a solid theoretical basis for efficient integration of the cross-boundary services.

SUMMARY OF THE INVENTION

An object of the present invention is to provide a hierarchical routing method oriented towards a cross-boundary service network, which can implement high-speed routing of service call in the service network, thereby providing a basis for aggregation and interoperation of cross-boundary services.

The present invention provides the following technical solution:

A hierarchical routing method oriented to a cross-boundary service network, the hierarchical routing method comprising the following steps:

-   -   (1): proposing reference services for services with same or         similar functions in a service network, with differences in         format and usage mode, and establishing a unified and         standardized usage view for a user; and     -   (2): establishing a method for mapping between the reference         services and ordinary services to map the multiple ordinary         services with similar functions into the unified reference         services, and automatically selecting an optimal ordinary         service when called by the user.

The step (1) comprises:

-   -   (1-1): initialization of the reference services: performing         function clustering on existing services in the service network         by means of data mining, and generating an initial reference         service blueprint containing all call parameters for each type         of service set; and     -   (1-2): revision by a domain expert: on the basis of the         initialization, modifying, merging, and deleting, by the domain         expert, the existing call parameters according to existing         related service discussions, performing revision to form the         final reference services, and publishing the final reference         services into the service network.

The step (2) comprises:

-   -   (2-1): mapping of the reference services: associating, by a user         provider, ordinary services of the user provider with the         reference services published in the service network,         establishing the method for mapping between the reference         services and the ordinary services to map the multiple ordinary         services with the similar functions into the unified reference         services, and generating a configuration file; and     -   (2-2): call of the reference services: when the user calls the         reference services, searching for, by a platform, an associated         candidate reference service list and a configuration file         thereof, automatically calling the reference services according         to a routing strategy, and returning an optimal result.

The step (2-1) comprises:

-   -   (2-1-1): recommendation by a system: mapping, by a service         provider, services of the service provider to the reference         services published in the network, and automatically         recommending, by the system, a reference service according to a         function;     -   (2-1-2): semi-automatic mapping: for each parameter p_(i) of a         selected service, calculating semantic similarities between the         parameter and all parameters q_(j) of the reference service, and         then taking a maximum value to determine a relationship between         the parameters:

max Tsim(p _(i) ,q _(j)), j=1, 2, . . . , n

-   -   wherein the selected service is an ordinary service of the user         provider, each parameter of the selected service comprises an         input parameter and an output parameter, the maximum value is         cyclically calculated for m times in total, Tsim is a semantic         similarity between two parameters calculated according to         parameter names, parameter descriptions, and the like, m is the         number of parameters for the selected service, and n is the         number of parameters for the reference service;     -   (2-1-3): manual modification by the user: after the         semi-automatic mapping, automatically generating, by the system,         an initial mapping relationship diagram, and manually adjusting,         by the user, an association between the parameters and the         relationship therebetween; and     -   (2-1-4): audit by the system: after the user confirms the         modification, automatically generating, by the system, a mapping         configuration file and uploading the mapping configuration file         to a service router, and after audit is passed by an         administrator, allowing the service to enter the candidate         reference service list.

The step (2-2) comprises: when the user calls the reference services, first forwarding, by a service switch, a request of the user to the service router that the reference services belong to, and calling, by the service router, the corresponding services according to the routing strategy, wherein the routing strategy is a performance strategy that focuses on an overall performance load of a reference service network or a fastest strategy that focuses on a return speed of the services called by the user.

The performance strategy comprises: after the service router receives the request of the user for the reference services, searching for all candidate reference services associated with the reference services; and for each of the candidate reference services, querying a historical call record of the candidate reference service, calculating and evaluating the performance of the candidate reference service, and then selecting the optimal ordinary service:

${{service}{quality}} = \frac{F({count\_ call})}{{F({avg\_ time})}*{F({access\_ time})}}$

wherein count_call represents the number of times of calling the reference services within a period of time, avg_time represents an average response time, and access_time represents a time of latest call.

The fastest strategy comprises: after the service router receives the request of the user for the reference services, searching for all candidate reference services associated with the reference services and the mapping configuration file of the reference services, converting a parameter format according to the configuration file, simultaneously initiating call requests for all the candidate reference services, and returning a fastest result according to service response times.

A storage model for the service network comprises:

-   -   a service entity, capable of independently providing a smallest         unit of the services in the service network, where compared with         combined services, the service entity is an atomic service that         provides a single type of service; and     -   service call information, referring to a group of specific         return values obtained by giving a specific input to a definite         service, where for the same service, service call information         corresponding to different inputs is different.

In the service network, the storage model needs to be built for describing various resources stored in the network, the resources including the service entity and the service call information.

The service entity is expressed in the form of a sextuple, i.e., S={ID, Address,Info,Dinfo, Entity,Keys}

-   -   wherein         -   “ID” refers to a unique identifier of a service in the             cross-boundary service network;         -   “Address” refers to an access address of a service resource             in the network, the access address being represented with a             domain name in the cross-boundary service network;         -   “Info” refers to key information for describing the service,             including a service name and service resource value;         -   “Dinfo” refers to detailed information for describing the             service, including all information of the service, such as             parameters, pictures, and a software development kit (SDK);         -   “Entity” refers to description of the service entity, which             is information of describing the service with a Web service             description language; and         -   “Keys” refer to a keyword set in the service, which             facilitates the retrieval and use of the service.

The service call information is expressed in the form of a sextuple, i.e., C={From,To,Param,Out, Start, End}

-   -   wherein         -   “From” refers to an initiator identifier of service call;         -   “To” refers to a called service identifier;         -   “Param” refers to a parameter passed in during the service             call;         -   “Out” refers to a service call result;         -   “Start” refers to a start time of the service call; and         -   “End” refers to an end time of the service call.

The present invention has the following beneficial and technical effects: a reference service mechanism is proposed for the services with the same or similar functions in the service network, and mapping of the reference services is established, which facilitates the user to use the services; and during call, the optimal service return result is selected according to the routing strategy, thereby implementing high-speed operation of the service network and even promoting deep integration of the cross-boundary services.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic diagram of a storage model for a service network;

FIG. 2 is a schematic diagram of service registration;

FIG. 3 is an instruction set for a service network; and

FIG. 4 is a schematic diagram of service call.

DETAILED DESCRIPTION OF THE EMBODIMENTS

To more specifically describe the present invention, the present invention is described in detail below with the reference to the accompanying drawings.

FIG. 1 shows a schematic diagram of a storage model for a service network, wherein the storage model is mainly used for describing various resources stored in the service network, the resources including a service entity and service call information.

The service entity is expressed in the form of a sextuple, i.e., S={ID,Address,Info,Dinfo, Entity,Keys}

-   -   wherein         -   “ID” refers to a unique identifier of a service in the             cross-boundary service network;         -   “Address” refers to an access address of a service resource             in the network, the access address being represented with a             domain name in the cross-boundary service network;         -   “Info” refers to key information for describing the service,             including a service name and service resource value;         -   “Dinfo” refers to detailed information for describing the             service, including all information of the service, such as             parameters, pictures, and a software development kit (SDK);         -   “Entity” refers to description of the service entity, which             is information of describing the service with a Web service             description language; and         -   “Keys” refer to a keyword set in the service, which             facilitates the retrieval and use of the service.

The service call information is expressed in the form of a sextuple, i.e., C={From,To,Param,Out, Start, End}

-   -   wherein         -   “From” refers to an initiator identifier of service call;         -   “To” refers to a called service identifier;         -   “Param” refers to a parameter passed in during the service             call;         -   “Out” refers to a service call result;         -   “Start” refers to a start time of the service call; and         -   “End” refers to an end time of the service call.

FIG. 2 shows a schematic diagram of a reference service. Proposing a reference service mechanism for services with same or similar functions in a service network, with differences in format and usage mode, and establishing a unified and standardized usage view for a user, comprises the following steps:

-   -   (1): initialization of reference services: performing function         clustering on existing services in the service network by means         of data mining, and generating an initial reference service         blueprint containing all call parameters for each type of         service set;     -   (2): revision by a domain expert: on the basis of the         initialization, modifying, merging, and deleting, by the domain         expert, the existing call parameters according to existing         related service discussions, performing revision to form the         final reference services, and publishing the final reference         services into the service network;     -   (3): mapping of the reference services: associating, by a user         provider, a service of the user provider with a reference         service published in the network according to the following         rules; and     -   (4): call of the reference services: when the user calls the         reference services, selecting and returning, by a platform, an         optimal result according to a routing strategy.

FIG. 3 shows a schematic diagram of mapping of reference services. Establishing a method for mapping between the reference services and ordinary services to map the multiple ordinary services with similar functions into the unified reference services, and generating a configuration file, comprises the following steps:

-   -   (1): recommendation by a system: mapping, by a service provider,         services of the service provider to the reference services         published in the network, and automatically recommending, by the         system, a reference service according to a function;     -   (2): semi-automatic mapping: for each parameter (an input         parameter and an output parameter) p_(i) of a selected service,         calculating semantic similarities between the parameter and all         parameters (q_(j)) of the reference service, and then taking a         maximum value to determine a relationship between the         parameters:

max Tsim(p _(i) ,q _(i)), j=1,2, . . . ,n

-   -   wherein the maximum value is cyclically calculated for “m” times         in total, “Tsim” is a semantic similarity between two parameters         calculated according to parameter names, parameter descriptions,         and the like, m is the number of parameters for the selected         service, and n is the number of parameters for the reference         service;     -   (3): manual modification by the user: after the semi-automatic         mapping, automatically generating, by the system, an initial         mapping relationship diagram, and manually adjusting, by the         user, an association between the parameters and the relationship         therebetween; and     -   (4): audit by the system: after the user confirms the         modification, automatically generating, by the system, a mapping         configuration file and uploading the mapping configuration file         to a service router, and after audit is passed by an         administrator, allowing the service to enter the candidate         reference service list.

FIG. 4 shows a schematic diagram of reference service call. When the user calls the reference services, a service switch first forwards a request of the user to the service router that the reference services belong to, and the service router calls the corresponding services according to the routing strategy. The routing strategy

-   -   comprises:

(1) an optimal performance strategy, wherein the strategy focuses on an overall performance load of a reference network; after the service router receives the request of the user for the reference services, all candidate services associated with the reference services are searched for; and for each of the candidate services, a historical call record of the candidate service is queried, the performance of the candidate reference service is calculated and evaluated, and then the optimal ordinary service is selected:

${{service}{quality}} = \frac{F({count\_ call})}{{F({avg\_ time})}*{F({access\_ time})}}$

-   -   wherein count_call represents the number of times of calling the         reference services within a period of time, avg_time represents         an average response time, and access_time represents a time of         latest call; and     -   (2) a fastest strategy, wherein the strategy focuses on a return         speed of the services called by the user, without considering         the overall performance load of the network; and after the         service router receives the request of the user for the         reference services, all candidate services associated with the         reference services and the mapping configuration file of the         reference services are searched for, a parameter format is         converted according to the configuration file, call requests for         all the candidate services are simultaneously initiated, and a         fastest result is returned according to service response times.         As shown in FIG. 4(b), the service router initiates call         requests for both a service a and a service b, and the service a         responds faster than the service b, so the service router         preferentially returns a call result of the service a. 

1. A hierarchical routing method oriented to a cross-boundary service network, the hierarchical routing method comprising the following steps: (1): proposing reference services for services with same or similar functions in a service network, with differences in format and usage mode, and establishing a unified and standardized usage view for a user; and (2): establishing a method for mapping between the reference services and ordinary services to map the multiple ordinary services with similar functions into the unified reference services, and automatically selecting an optimal ordinary service when called by the user; wherein the step (1) comprises: (1-1): initialization of the reference services: performing function clustering on existing services in the service network by means of data mining, and generating an initial reference service blueprint containing all call parameters for each type of service set; and (1-2): revision by a domain expert: on the basis of the initialization, modifying, merging, and deleting, by the domain expert, the existing call parameters according to existing related service discussions, performing revision to form the final reference services, and publishing the final reference services into the service network; wherein the step (2) comprises: (2-1): mapping of the reference services: associating, by a user provider, ordinary services of the user provider with the reference services published in the service network, establishing the method for mapping between the reference services and the ordinary services to map the multiple ordinary services with the similar functions into the unified reference services, and generating a configuration file; and (2-2): call of the reference services: when the user calls the reference services, searching for, by a platform, an associated candidate reference service list and a configuration file thereof, automatically calling the reference services according to a routing strategy, and returning an optimal result.
 2. The hierarchical routing method oriented to a cross-boundary service network according to claim 1, wherein the step (2-1) comprises: (2-1-1): recommendation by a system: mapping, by a service provider, services of the service provider to the reference services published in the network, and automatically recommending, by the system, a reference service according to a function; (2-1-2): semi-automatic mapping: for each parameter p_(i) of a selected service, calculating semantic similarities between the parameter and all parameters q_(j) of the reference service, and then taking a maximum value to determine a relationship between the parameters: max Tsim(p _(i) ,q _(j)),j=1, 2, . . . ,n wherein the selected service is an ordinary service of the user provider, each parameter of the selected service comprises an input parameter and an output parameter, the maximum value is cyclically calculated for m times in total, Tsim is a semantic similarity between two parameters calculated according to parameter names, parameter descriptions, and the like, m is the number of parameters for the selected service, and n is the number of parameters for the reference service; (2-1-3): manual modification by the user: after the semi-automatic mapping, automatically generating, by the system, an initial mapping relationship diagram, and manually adjusting, by the user, an association between the parameters and the relationship therebetween; and (2-1-4): audit by the system: after the user confirms the modification, automatically generating, by the system, a mapping configuration file and uploading the mapping configuration file to a service router, and after audit is passed by an administrator, allowing the service to enter the candidate reference service list.
 3. The hierarchical routing method oriented to a cross-boundary service network according to claim 2, wherein the step (2-2) comprises: when the user calls the reference services, first forwarding, by a service switch, a request of the user to the service router that the reference services belong to, and calling, by the service router, the corresponding services according to the routing strategy, wherein the routing strategy is a performance strategy that focuses on an overall performance load of a reference service network or a fastest strategy that focuses on a return speed of the services called by the user.
 4. The hierarchical routing method oriented to a cross-boundary service network according to claim 3, wherein the performance strategy comprises: after the service router receives the request of the user for the reference services, searching for all candidate reference services associated with the reference services; and for each of the candidate reference services, querying a historical call record of the candidate reference service, calculating and evaluating the performance of the candidate reference service, and then selecting the optimal ordinary service: ${{service}{quality}} = \frac{F({count\_ call})}{{F({avg\_ time})}*{F({access\_ time})}}$ wherein count_call represents the number of times of calling the reference services within a period of time, avg_time represents an average response time, and access_time represents a time of latest call.
 5. The hierarchical routing method oriented to a cross-boundary service network according to claim 4, wherein the fastest strategy comprises: after the service router receives the request of the user for the reference services, searching for all candidate reference services associated with the reference services and the mapping configuration file of the reference services, converting a parameter format according to the configuration file, simultaneously initiating call requests for all the candidate reference services, and returning a fastest result according to service response times.
 6. The hierarchical routing method oriented to a cross-boundary service network according to claim 1, wherein a storage model for the service network comprises: a service entity, capable of independently providing a smallest unit of the services in the service network, wherein compared with combined services, the service entity is an atomic service that provides a single type of service; and service call information, referring to a group of specific return values obtained by giving a specific input to a definite service, wherein for the same service, service call information corresponding to different inputs is different.
 7. The hierarchical routing method oriented to a cross-boundary service network according to claim 6, wherein the service entity is expressed in the form of a sextuple, i.e., S={ID, Address,Info,Dinfo, Entity Keys} wherein “ID” refers to a unique identifier of a service in the cross-boundary service network; “Address” refers to an access address of a service resource in the network, the access address being represented with a domain name in the cross-boundary service network; “Info” refers to key information for describing the service, comprising a service name and service resource value; “Dinfo” refers to detailed information for describing the service, comprising all information of the service, such as parameters, pictures, and a software development kit (SDK); “Entity” refers to description of the service entity, which is information of describing the service with a Web service description language; and “Keys” refer to a keyword set in the service, which facilitates the retrieval and use of the service.
 8. The hierarchical routing method oriented to a cross-boundary service network according to claim 6, wherein the service call information is expressed in the form of a sextuple, i.e., C={From,To,Param,Out, Start, End} wherein “From” refers to an initiator identifier of service call; “To” refers to a called service identifier; “Param” refers to a parameter passed in during the service call; “Out” refers to a service call result; “Start” refers to a start time of the service call; and “End” refers to an end time of the service call. 